﻿
********************TRaC 2015 analysis*****************************************************************************



***************Birth spacing******************************************************************************

*Ever used any birth spacing

Fre BS02.

*Current use of any birth spacing - entire sample

Fre BS05.

RECODE BS05 (1=1) (ELSE=0) INTO BS05all.

Fre BS05all.

***Current use of modern birth spacing.

Fre BS06_1 BS06_2 BS06_3 BS06_4 BS06_5 BS06_6 BS06_7.

CROSSTABS BS06_1 by BS06_2 BS06_3 BS06_4 BS06_5.
CROSSTABS BS06_2 by BS06_3 BS06_4 BS06_5.
CROSSTABS BS06_3 by BS06_4 BS06_5.
CROSSTABS BS06_4 by BS06_5.

COMPUTE MBS=BS06_1 + BS06_2 + BS06_3 + BS06_4 + BS06_5.

Fre MBS.

Fre MBS_new.

*MBS_new appears to be incorrect. Using MBS.



*********************Analysis for Contraceptive Prevalance Rate (CPR) for DFID******************************.

*******************Currently using BS*** excluding pregnant*************.  

USE ALL.
COMPUTE filter_$=(CBF03 = 0 & BS02 = 1).
VARIABLE LABELS filter_$ 'CBF03 = 0 & BS02 = 1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

Freq BS05.

Filter off. 

*****Type of BS method used.

Fre BS05.

Fre BS06_1 BS06_2 BS06_3 BS06_4 BS06_5 BS06_6 BS06_7 BS06_8 BS06_9 BS06_10 BS06_11.


********current MBS users excluding never used and are not pregnant. 


USE ALL.
COMPUTE filter_$=(CBF03 = 0 & BS02 = 1).
VARIABLE LABELS filter_$ 'CBF03 = 0 & BS02 = 1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

Freq MBS.

Filter off. 
**********************Pills, injectable, IUD and Implants,  users among those who used MBS******************.

USE ALL.
COMPUTE filter_$=(MBS= 1).
VARIABLE LABELS filter_$ 'MBS = 1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq BS06_1 BS06_2 BS06_3 BS06_4 BS06_5 

Filter off.



************************Pills users: brand used*****************.

USE ALL.
COMPUTE filter_$=(BS06_4 = 1).
VARIABLE LABELS filter_$ 'BS06_4 = 1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq BS07. 

Filter off. 

**********injectable users: brand**********************.

USE ALL.
COMPUTE filter_$=(BS06_2 = 1).
VARIABLE LABELS filter_$ 'BS06_2 = 1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq BS08

Filter off. 

*********source and distance of birth spacing**************.


USE ALL.
COMPUTE filter_$=(MBS= 1).
VARIABLE LABELS filter_$ 'MBS = 1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq BS18.

freq BS19.

filter off. 
*************************Know/easy where to find MBS************.
FREQUENCIES VARIABLES=BS33 BS34 BS35 BS36 BS37 BS38
  /ORDER=ANALYSIS.

****Social norms.

Fre BS51 BS52 BS53.


************Knows MBS adminstration***********.

FREQUENCIES VARIABLES=BS39
  /ORDER=ANALYSIS.

FREQUENCIES VARIABLES=BS43
  /ORDER=ANALYSIS.

*Optimal birth spacing

Fre BS31_2.

*Benefits.

Fre BS32_1 BS32_2.

*****Social support.

Fre BS54 BS55 BS58.

******Self-efficacy.

Fre BS57.

*****Attitudes.

Fre BS49 BS50.

***Beliefs.

Fre BS47 BS41 BS45 BS42 BS46 BS48.

******Intention

Fre BS28.

*******Threat

Fre BS27.

USE ALL.
COMPUTE filter_$=(CBF03 = 0 & BS05 = 0).
VARIABLE LABELS filter_$ 'CBF03 = 0 & BS05 = 0 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

Freq BS27.

Filter off. 



***********Additional analyses

***Fertility.

DESCRIPTIVES CBF01. 

DESCRIPTIVES CBF05.

Fre CBF03 CBF04.

***Knowledge of different BS types.

Fre BS01_1 BS01_2 BS01_3 BS01_4 BS01_5 BS01_6 BS01_7 BS01_8 BS01_9 BS01_10 BS01_11 BS01_12.

***Age of child of LAM users.
Fre QTK02_years1.

DO IF  (QTK02_years1 = 0).
RECODE QDTK02_month1 (ELSE=Copy) INTO Ageunder6mochild1.
END IF.
EXECUTE.

Fre Ageunder6mochild1.

Recode Ageunder6mochild1 (1=1) (2=1) (3=1) (4=1) (5=1) (ELSE=0).
Fre Ageunder6mochild1.

Fre QTK02_years2.

DO IF  (QTK02_years2 = 0).
RECODE QDTK02_month2 (ELSE=Copy) INTO Ageunder6mochild2.
END IF.
EXECUTE.

Fre Ageunder6mochild2.

Recode Ageunder6mochild2 (1=1) (2=1) (3=1) (4=1) (5=1) (ELSE=0).
Fre Ageunder6mochild2.

COMPUTE Under6mo=Ageunder6mochild1  +  Ageunder6mochild2.
Fre Under6mo.

Recode Under6mo (2=1) (1=1) (0=0).
Fre Under6mo.

CROSSTABS
  /TABLES=BS06_8 BY Under6mo
  /FORMAT=AVALUE TABLES
  /CELLS=COUNT ROW  
  /COUNT ROUND CELL.


*** Price paid for pills and injectables.

Fre BS09.

Recode BS09 (97=0) (98=SYSMIS) (ELSE=COPY) into methodprice.
Fre methodprice.

DESCRIPTIVES methodprice.

*pills 

USE ALL.
COMPUTE filter_$=(BS06_4= 1).
VARIABLE LABELS filter_$ 'BS06_4 = 1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

DESCRIPTIVES methodprice.

Filter off.

*injectables.

USE ALL.
COMPUTE filter_$=(BS06_2= 1).
VARIABLE LABELS filter_$ 'BS06_2 = 1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_USE ALL.
FILTER BY filter_$.
EXECUTE.

DESCRIPTIVES methodprice.

Filter off.

***Who recommended current method MBS vs. LAM

Fre BS12.

COMPUTE filter_$=(MBS= 1).
VARIABLE LABELS filter_$ 'MBS = 1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq BS13_1 BS13_2 BS13_T3 BS13_4 BS13_5 BS13_6 BS13_7 BS13_8 BS13_9.

Filter off.

COMPUTE filter_$=(BS06_8= 1).
VARIABLE LABELS filter_$ 'BS06_8 = 1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

freq BS13_1 BS13_2 BS13_T3 BS13_4 BS13_5 BS13_6 BS13_7 BS13_8 BS13_9.

Filter off.


***************END BIRTH SPACING**************************************************************************************************************************



*******************Diarrhea treatment preliminnary analyses*********************


*****************number of under five children***************** 

FREQUENCIES VARIABLES=QDTK01
 /STATISTICS=STDDEV MINIMUM MAXIMUM MEAN MEDIAN MODE
  /ORDER=ANALYSIS.

****************occurence of Diarhea in the last two weeks************

FREQUENCIES VARIABLES=QDTK04
  /ORDER=ANALYSIS.

**************** presence of blood in the stool of the child among those who have a diarrhea in the last two weeks****************************

USE ALL.
COMPUTE filter_$=(QDTK04=1).
VARIABLE LABELS filter_$ 'QDTK04=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=QDTK05
  /ORDER=ANALYSIS.


***************** last time your child had a daiarrhea what did you give(among those who reported presence of diarrhea in the last two weeks************************

FREQUENCIES VARIABLES=QDTK06
  /ORDER=ANALYSIS.

filter off .


******************knows where to get DTK(among those who heard)*****************


USE ALL.
COMPUTE filter_$=(QDTK21=1).
VARIABLE LABELS filter_$ 'QDTK21=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=QDTK24_1 QDTK24_2 QDTK24_3 QDTK24_4 QDTK24_5
  /ORDER=ANALYSIS.

filter off .


************* knowledge of diarrhea treatment********************

FREQUENCIES VARIABLES=QDTK09
  /ORDER=ANALYSIS.

**************************knows beefits of ORS and Zinc******************

FREQUENCIES VARIABLES=QDTK16_1 QDTK16_2 QDTK16_3 QDTK16_4 QDTK16_5 QDTK16_6
  /ORDER=ANALYSIS.

*************** Knows that ORS should be given the child immediately after having 3 times of watery stools in 24 hours****************

FREQUENCIES VARIABLES=QDTK10
  /ORDER=ANALYSIS.

************************correctly sites Dose of Zinc for 6 month or less child( among those who know and ever used Zinc*****************

USE ALL.
COMPUTE filter_$=(QDTK11=1&QDTK12=1).
VARIABLE LABELS filter_$ 'QDTK11=1&QDTK12=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=QDTK17 QDTK18 QDTK19 QDTK20
  /ORDER=ANALYSIS.

filter off .

************Think That combination of ORS and Zinc is an effective treatment of diarrhea***************************

FREQUENCIES VARIABLES=QDTK15
  /ORDER=ANALYSIS.

*************ever purchased Diarrhea treatment kit(DTK)*********************************

FREQUENCIES VARIABLES=QDTK25
  /ORDER=ANALYSIS.

**************** ever sough ttreatment of your child diarrhea outside of the home*****************

FREQUENCIES VARIABLES=QDTK07
  /ORDER=ANALYSIS.

***************knows Zinc********************

fre QDTK11.

********************ever used Zinc among those who knows Zinc**********************

USE ALL.
COMPUTE filter_$=(QDTK11=1).
VARIABLE LABELS filter_$ 'QDTK11=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

Freq QDTK12


Filter off .

****************** ever heard of Shubanaweeye(DTK)********************

Freq QDTK21


********** from where id you hear/see among those who heard or saw it******************

USE ALL.
COMPUTE filter_$=(QDTK21=1 or QDTK22=1).
VARIABLE LABELS filter_$ 'QDTK21=1 or QDTK22=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=QDTK23_1 QDTK23_2 QDTK23_3 QDTK23_4 QDTK23_5 QDTK23_6 QDTK23_7 QDTK23_8 
    QDTK23_9 QDTK23_10 QDTK23_11 QDTK23_12 QDTK23_13
  /ORDER=ANALYSIS.

Filter off .


************* seen/heard messages about treatment for diarrhea over the past 3 months********************					

fre QDTK33

************* whatmessages did you hear among those who reported **************

USE ALL.
COMPUTE filter_$=(QDTK33=1).
VARIABLE LABELS filter_$ 'QDTK33=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=QDTK35_1 QDTK35_2 QDTK35_3
  /ORDER=ANALYSIS.

filter off .



*********************************END OF DIARRHEA TREATMENT**************************************




********************SuperFariid (MNP) preliminery analysis************

*****************in the last 12 month did you give SuperFariid (MNP) to your child**********

FREQUENCIES VARIABLES=MNP21
  /ORDER=ANALYSIS.

*******************How many days among those who asid they gave SuperFariid to thier child*******************

FREQUENCIES VARIABLES=MNP22_month
 /STATISTICS=STDDEV MINIMUM MAXIMUM MEAN MEDIAN MODE
  /ORDER=ANALYSIS.

RECODE MNP22_month (90=2) (1 thru 89=1) (91 thru 270=3) INTO howmanydays.
VARIABLE LABELS  howmanydays 'How many  days did yoy give Superfariid to your child'.
EXECUTE

Freq howmanydays. 

SAVE OUTFILE='TRaC_cleaned_data_SL_040116_ad (1).sav'
  /COMPRESSED.

**********Child got iron supplementation.

Fre MNP14.

***************** Preferred place to find SuperFariid ******************

SORT CASES BY MNP25 (A).

CROSSTABS
  /TABLES=MNP13 BY MNP25
  /FORMAT=AVALUE TABLES
  /CELLS=COUNT
  /COUNT ROUND CELL.

SAVE OUTFILE='C:\Users\TRaC_cleaned_data_SL_040116_ad (1).sav'
  /COMPRESSED.

FREQUENCIES VARIABLES=MNP25
  /ORDER=ANALYSIS.


***************knows can poor nutrition cause health problems for CU5********************					

FREQUENCIES VARIABLES=MNP01
  /ORDER=ANALYSIS.

*************knows consequence of malnutrition of under fivve children*********************

SORT CASES BY MNP03 (A).

**********There were 0s entered and we considered all the two 0s as missing and deleted*********

SAVE OUTFILE='C:\Users\TRaC_cleaned_data_SL_040116_ad (1).sav'
  /COMPRESSED.

FREQUENCIES VARIABLES=MNP03
  /ORDER=ANALYSIS.

*******************knows signs of malnutrition*********************

FREQUENCIES VARIABLES=MNP02_1 MNP02_2 MNP02_3 MNP02_4 MNP02_5 MNP02_6 MNP02_7 MNP02_8 MNP02_9 
    MNP02_10 MNP02_11 MNP02_12 MNP02_13 MNP02_14
  /ORDER=ANALYSIS.


*******************Knows how malnutrition can be prevented*******************************        


FREQUENCIES VARIABLES=MNP04_1 MNP04_2 MNP04_3 MNP04_4
  /ORDER=ANALYSIS.

********************* Anemia is a problem to under five children among those who heard anemia**********

USE ALL.
COMPUTE filter_$=(MNP06=1).
VARIABLE LABELS filter_$ 'MNP06=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=MNP08
  /ORDER=ANALYSIS.

***********knows causes of anemia among those who heard anemia**********

FREQUENCIES VARIABLES=MNP09
  /ORDER=ANALYSIS.

*************************knows how to treat and prevent anemia******************************

FREQUENCIES VARIABLES=MNP11
  /ORDER=ANALYSIS.

***********knows consequence of anemia for undder five chiildren among those who heard anemia************

SORT CASES BY MNP10 (A).

**********There were 0s entered and we considered all the six 0s as missing and deleted*********

SAVE OUTFILE='C:\Users\TRaC_cleaned_data_SL_040116_ad (1).sav'
  /COMPRESSED.


FREQUENCIES VARIABLES=MNP10.
  /ORDER=ANALYSIS

Filter off .

**********************Knows when a child should be given additional food other than breast milk at 6 months of age***************

FREQUENCIES VARIABLES=MNP05.
  /ORDER=ANALYSIS

********************this malnutrition is a problem to pregnant women************

FREQUENCIES VARIABLES=MNP32.
  /ORDER=ANALYSIS

************knows consequence of malnutrition to pregnant women among those who thing malnutrition is a problem to pregnancy***************


USE ALL.
COMPUTE filter_$=(MNP32=1).
VARIABLE LABELS filter_$ 'MNP32=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=MNP33_1 MNP33_2 MNP33_3 MNP33_4 MNP33_5 MNP33_6 MNP33_7 MNP33_8.



filter off .


******************************Think that SuperFariid canbe easily added to the children's food*************************

FREQUENCIES VARIABLES=MNP26
  /ORDER=ANALYSIS.


*********** if you donont think that SuperFariid can be easily added to the children's food why?**********************


USE ALL.
COMPUTE filter_$=(MNP26=0).
VARIABLE LABELS filter_$ 'MNP06=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

**********There were 0 entered and we considered that 0 as missing and deleted*********

SORT CASES BY MNP27 (A).

SAVE OUTFILE='C:\Users\TRaC_cleaned_data_SL_040116_ad (1).sav' 
  /COMPRESSED.

FREQUENCIES VARIABLES=MNP27
  /ORDER=ANALYSIS.

Filter off .


***********mothers/care givers kow where to get nutritional advice on children***********************


SAVE OUTFILE='C:\Users\TRaC_cleaned_data_SL_040116_ad (1).sav'
  /COMPRESSED.

FREQUENCIES VARIABLES=MNP12_1 MNP12_2 MNP12_3 MNP12_4 MNP12_5 MNP12_6 MNP12_7 MNP12_8 MNP12_9 
    MNP12_10 MNP12_11
  /ORDER=ANALYSIS.


*************** prefer to get child's nutritional care*************

FREQUENCIES VARIABLES=MNP13
  /ORDER=ANALYSIS.

**********mothers/care givers who heard SuperFariid***************


FREQUENCIES VARIABLES=MNP16
  /ORDER=ANALYSIS.

***********mothers/care givers who ever heard anemia***********


FREQUENCIES VARIABLES=MNP06
  /ORDER=ANALYSIS.


****************END OF SUPERFARIID************************



********************************pneumonia preliminery anallysis*****************************************


*************ever sought treatment for pneumonia in your child?*********************			

FREQUENCIES VARIABLES=PN07
  /ORDER=ANALYSIS.


************from where did you treat our child's pneumonia*************

USE ALL.
COMPUTE filter_$=(PN07=1).
VARIABLE LABELS filter_$ 'PN07=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=PN08
  /ORDER=ANALYSIS.

filter off .


************* knows where to aobtain pneumonia treatment for your child********************

USE ALL.
COMPUTE filter_$=(PN01=1).
VARIABLE LABELS filter_$ 'PN01=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=PN06
  /ORDER=ANALYSIS.

*************knows sigs of pneumonia among those heard pneumonia**************

FREQUENCIES VARIABLES=PN02_1 to PN02_6
  /ORDER=ANALYSIS.

*************Knows that pneumonia treatment should be sought immediately(among those who ever heard pneumonia********************* 

FREQUENCIES VARIABLES=PN05
  /ORDER=ANALYSIS.
 
filter off .

************What would you do if the child has cough and fast breathing**********

FREQUENCIES VARIABLES=PN03
  /ORDER=ANALYSIS.
 
*************************How would you treat your child at home*********

FREQUENCIES VARIABLES=PN04
  /ORDER=ANALYSIS.

****************ever heard of Pneumonia***********

FREQUENCIES VARIABLES=PN01
  /ORDER=ANALYSIS.


***********health seeking behavior of mother**************
 
 ****************Prefers to take her child when sick **************

FREQUENCIES VARIABLES=PN11
  /ORDER=ANALYSIS.

*****************How long does it take to take you child to there*******

FREQUENCIES VARIABLES=PN12
  /STATISTICS=STDDEV MINIMUM MAXIMUM MEAN MEDIAN MODE
  /ORDER=ANALYSIS.


*****************End of Pneumonia************************************







***********************************************************************Bulsh-Kaab(Social franchise network)**************************

*************ever heard BK********************

FREQUENCIES VARIABLES=QBK01. 


**************Ever seen BK(among those not heard)***************

USE ALL.
COMPUTE filter_$=(QBK01=0).
VARIABLE LABELS filter_$ 'QBK01=0 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=QBK02.

Filter off 


**************from where did you here***************


USE ALL.
COMPUTE filter_$=(QBK01=1).
VARIABLE LABELS filter_$ 'QBK01=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=QBK03_1 to QBK03_14.


******what messages do you hear (among those heard)*****************

FREQUENCIES VARIABLES=QBK04_1 to QBK04_3. 



*******do you why BK pharmacies are diffeerent from other pharmacies**********************


FREQUENCIES VARIABLES=QBK05_1 to QBK05_7. 


Filter off. 

************ ever recommended for some one to go to BK pharmacies******************

FREQUENCIES VARIABLES=QBK06.


************did some one recommeded you to go the BK pharmacies*******************


FREQUENCIES VARIABLES=QBK07.





*******************End of BK pharmacies*********************************




*****************************************************************************************************************************water treatment atblet**********************************

**************Ever used Water trreatment tablet(BiyoSifeeye)***********
FREQUENCIES VARIABLES=WT04
  /ORDER=ANALYSIS.

USE ALL.
COMPUTE filter_$=(WT04=1).
VARIABLE LABELS filter_$ 'WT04=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

FREQUENCIES VARIABLES=WT05
  /ORDER=ANALYSIS.


********** treated water with water treatment tablet in the last 24 hours**************

FREQUENCIES VARIABLES=WT06
  /ORDER=ANALYSIS.

**************know where to buy Water treatment tablet(BiyoSifeeeye)***********************


FREQUENCIES VARIABLES=WT37
  /ORDER=ANALYSIS.

******************always find water treatment tablet(BiyoSifeeye)****************


FREQUENCIES VARIABLES=WT38
  /ORDER=ANALYSIS.

********************Can correctly cite all instructions for BiyoSifeeye use*********************

RECODE WT33 (1=1) (2=0) (98=0) (SYSMIS=SYSMIS) (97=SYSMIS) INTO WT33_new.
EXECUTE.

RECODE WT34 (1=1) (2=0) (98=0) (SYSMIS=SYSMIS) (97=SYSMIS) INTO WT34_new.
EXECUTE.

RECODE WT35 (1=1) (2=0) (98=0) (SYSMIS=SYSMIS) (97=SYSMIS) INTO WT35_new.
EXECUTE.

RECODE WT36 (1=1) (2=0) (98=0) (SYSMIS=SYSMIS) (97=SYSMIS) INTO WT36_new.
EXECUTE.

COMPUTE WTallinstruc=WT33_new + WT34_new +  WT35_new +  WT36_new.
EXECUTE.

Fre WTallinstruc

*************how many tablte is need to treat 20 liter of clear water****************

**********cleaned, 0s was recorded as other becuase data entry error as the next variable shows**********

 SORT CASES BY WT33 (A).

if QUESNO = 1056 & WT33 = 0 WT33 = 2. 
if QUESNO = 1388 & WT33 = 0 WT33 = 2. 
if QUESNO = 1053 & WT33 = 0 WT33 = 2. 
if QUESNO = 1073 & WT33 = 0 WT33 = 2.
if QUESNO = 731 & WT33 = 0 WT33 = 97.


FREQUENCIES VARIABLES=WT33
  /ORDER=ANALYSIS

********************how many tablet for 20 liter of unclear water******************

**********cleaned, 0s was recorded as other becuase data entry error as the next variable shows**********

if	QUESNO	=	1248	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	351	&	WT34	=	0	WT34	=	97.
if	QUESNO	=	662	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	670	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1036	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	664	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1389	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1062	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1036	&	WT34	=	0	WT34	=	97.
if	QUESNO	=	1035	&	WT34	=	0	WT34	=	97.
if	QUESNO	=	72	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	655	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	354	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	2124	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1038	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1037	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1059	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1072	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1062	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1064	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1061	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1037	&	WT34	=	0	WT34	=	97.
if	QUESNO	=	71	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1038	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1372	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	740	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1040	&	WT34	=	0	WT34	=	97.
if	QUESNO	=	75	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1070	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1239	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1063	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1065	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	613	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	2101	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1050	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1391	&	WT34	=	0	WT34	=	97.
if	QUESNO	=	2103	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1039	&	WT34	=	0	WT34	=	97.
if	QUESNO	=	661	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	665	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1073	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	1673	&	WT34	=	0	WT34	=	2.
if	QUESNO	=	663	&	WT34	=	0	WT34	=	97.


FREQUENCIES VARIABLES=WT34.
  /ORDER=ANALYSIS

***************wait 30 minutes****************

FREQUENCIES VARIABLES=WT35.
  /ORDER=ANALYSIS

*************duration of treatment effect: 24 hours**************


FREQUENCIES VARIABLES=WT36.
  /ORDER=ANALYSIS

Filter off. 

***************always necessary to clean drnking water**************

FREQUENCIES VARIABLES=WT19.
  /ORDER=ANALYSIS

***********know atleast one method of water treatment **********************

FREQUENCIES VARIABLES=WT03_1 to WT03_5.

COMPUTE WT03=WT03_1 + WT03_2 + WT03_3 + WT03_4 + WT03_5 .
EXECUTE.


fre WT03.


RECODE WT03 (0=0) (1 thru 5=1) (SYSMIS=SYSMIS) INTO WT03_all.
EXECUTE.

Fre WT03_all. 

*********nieghbors couselled to treat water to make it safe**********

Fre WT23






********BiyoSifeeye is effective in preventing darrhea*************


USE ALL.
COMPUTE filter_$=(WT04=1).
VARIABLE LABELS filter_$ 'WT04=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

Fre WT31

Filter off.  

************** believe Diarhea cannot be prevented by treating water********************

Fre WT15


*************wories that children could die from diarrhea***********************

Fre WT29


***************Seriously concerned about the quality of drinking water************

fre WT25

********************Quality of drinking water causes serious problems**************

Fre WT26



**********Children are at risk getting diarrhea from contaminated drinking water*********

Fre WT27.

****************Risk of getting diarrhea from a contaminated drinking water*************

Fre WT28


****************Water that looks clear is safe to drink ************************

Fre WT12


************************Thinks that water is not safe to drink in*********

Fre WT02


*************** Ever heard of BiyoSifeeye*****************

Fre WT04



**************END OF BIYOSIFEEYE*******************


*************************Hand Washing*****************

****************Uses to wash hands with**************

Fre WT08                                                                          


****************Knows Hand washing benefits*********

Fre WT09_1 to WT09_4                                                                              

******************Knows when it is important to wash hands******************

Fre WT10_1 to WT10_6

*******************People they know who wash their hands with water and soap or ash************************

Fre WT21          


**********************************End of BiyoSifeeye*************************************.


************************socioeconomics*************************

****************typemof housing************************

FREQUENCIES VARIABLES=Q01
  /ORDER=ANALYSIS.

**************lived  most of your live here***************

FREQUENCIES VARIABLES=Q02
  /ORDER=ANALYSIS.

***********************Age*********************

RECODE Q04 (15 thru 30=1) (31 thru 49=2) INTO age_new.
EXECUTE.

fre age_new


*****************earn your own money******************

Fre q07


**************how do you earn money(among those reportedthat they earn thier own money)*********************************

USE ALL.
COMPUTE filter_$=(Q07=1).
VARIABLE LABELS filter_$ 'Q07=1 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

*******************************End of SES**************************************************.





****** Segmentation analyses for MBS use**************************************************************************************************************************

***********those who were not pregnant were illigible to use MBS*******************

USE ALL. 
COMPUTE filter_$=(CBF03 = 0). 
VARIABLE LABELS filter_$ 'CBF03 = 0 (FILTER)'. 
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'. 
FORMATS filter_$ (f1.0). 
FILTER BY filter_$. 
EXECUTE. 
Fre MBS.


*****************MBS use*******************

COMPUTE MBS=BS06_1 + BS06_2 + BS06_3 + BS06_4 + BS06_5.

Fre MBS.


***************crosstab of MBS use and if recommended by someone********************


CROSSTABS 
  /TABLES=BS12 BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.

**********MBS use and risk of unintended pregnancy****************

CROSSTABS 
  /TABLES=BS27 BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.

*********************MBS use and MBS is safe*************

RECODE BS47 (98=0) (1 thru 2=0) (3 thru 4=1) INTO MBSsafe. 
VARIABLE LABELS  MBS is safe'. 
EXECUTE. 
CROSSTABS 
  /TABLES=MBSsafe BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.


******************MBS use and religion*******************

RECODE BS49 (98=0) (MISSING=SYSMIS) (1 thru 2=0) (3 thru 4=1) INTO birthspacingreligion. 
VARIABLE LABELS  birthspacingculture 'Birth spacing is allowed in my religion'. 
EXECUTE. 

CROSSTABS 
  /TABLES=birthspacingreligion BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.

*************MBS use and culture***********************

RECODE BS50 (98=0) (MISSING=SYSMIS) (1 thru 2=0) (3 thru 4=1) INTO birthspacingculture. 
VARIABLE LABELS  birthspacingculture 'Birth spacing is acceptable in my culture'. 
EXECUTE. 

CROSSTABS 
  /TABLES=birthspacingculture BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.

**********MBS use and discuss birth spacing with family member*******************

CROSSTABS 
  /TABLES=BS54 BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.

*****************MBS use and discuss with you husband*****************

CROSSTABS 
  /TABLES=BS55 BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.

***************MBS use and confident that I can talk about birth spacing to my husband**************

RECODE BS57 (98=0) (MISSING=SYSMIS) (1 thru 2=0) (3 thru 4=1) INTO discushusanbdconfidently. 
VARIABLE LABELS  discushusanbdconfidently 'Discuss birth spacing method with my husband confidently'. 
EXECUTE. 
CROSSTABS 
  /TABLES=discushusanbdconfidently BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.

**************MBS use and my husband supports me to use MBS*********

CROSSTABS 
  /TABLES=BS58 BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.

***************MBS use and ever heard/seen messages about birth spacing**************

CROSSTABS 
  /TABLES=BS64 BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.

*****************MBS use and SES*******************


FACTOR
  /VARIABLES Q05_c Q05_d Q05_j Q05_k Q06_a  /MISSING
  LISTWISE /ANALYSIS Q05_c Q05_d Q05_j Q05_k Q06_a
  /PRINT INITIAL EXTRACTION
  /CRITERIA MINEIGEN(1) ITERATE(25)
  /EXTRACTION PC
  /ROTATION NOROTATE
  /SAVE REG(ALL)
  /METHOD=CORRELATION .

******Grouping respondents into 3 SES groups******.

FREQUENCIES
VARIABLES=fac1_1
/NTILES= 3
/ORDER= ANALYSIS /FORMAT NOTABLE.


COMPUTE Fac1new = fac1_1 = RND(fac1_1*10000000)/10000000 .
EXECUTE .

RECODE
  fac1_1
  (Lowest thru -.4358789=1)  (-.4358789 thru .5841554=2) (.5841554 thru highest=3) INTO  SES .
VALUE LABELS SES 1 'LOW'  2 'MEDIUM' 3 'HIGH'.
VARIABLE LABELS SES 'Socioeconomic status'.

fre SES


CROSSTABS 
  /TABLES=SES BY MBS 
  /FORMAT=AVALUE TABLES 
  /STATISTICS=CHISQ 
  /CELLS=COUNT COLUMN 
  /COUNT ROUND CELL.



**********************************************Bivariate analyses**************Birth spacing*************************************.

********MBS use and if recommended by someone********************

LOGISTIC REGRESSION VARIABLES MBS 
  /METHOD=ENTER BS12 
  /CONTRAST (BS12)=Indicator(1) 
  /PRINT=CI(95) 
  /CRITERIA=PIN(0.05) POUT(0.10) ITERATE(20) CUT(0.5).


*************MBS use and risk of un intended pregnancy*************

LOGISTIC REGRESSION VARIABLES MBS 
  /METHOD=ENTER BS27 
  /CONTRAST (BS27)=Indicator(1) 
  /PRINT=CI(95) 
  /CRITERIA=PIN(0.05) POUT(0.10) ITERATE(20) CUT(0.5).

**************MBS use and Believe that MBS is safe to use***************

LOGISTIC REGRESSION VARIABLES MBS 
  /METHOD=ENTER MBSsafe 
  /CONTRAST (MBSsafe)=Indicator(1) 
  /PRINT=CI(95) 
  /CRITERIA=PIN(0.05) POUT(0.10) ITERATE(20) CUT(0.5).

*************MBS use and religion****************

LOGISTIC REGRESSION VARIABLES MBS 
  /METHOD=ENTER birthspacingreligion 
  /CONTRAST (birthspacingreligion)=Indicator(1) 
  /PRINT=CI(95) 
  /CRITERIA=PIN(0.05) POUT(0.10) ITERATE(20) CUT(0.5).


************MBS use and culture************

LOGISTIC REGRESSION VARIABLES MBS 
  /METHOD=ENTER birthspacingculture 
  /CONTRAST (birthspacingculture)=Indicator(1) 
  /PRINT=CI(95) 
  /CRITERIA=PIN(0.05) POUT(0.10) ITERATE(20) CUT(0.5).

*******************MBS use and discuss birth spacing with family member***********

LOGISTIC REGRESSION VARIABLES MBS 
  /METHOD=ENTER BS54 
  /CONTRAST (BS54)=Indicator(1) 
  /PRINT=CI(95) 
  /CRITERIA=PIN(0.05) POUT(0.10) ITERATE(20) CUT(0.5).

******************MBS use and discussion of birth spacin with husband**************

LOGISTIC REGRESSION VARIABLES MBS 
  /METHOD=ENTER BS55 
  /CONTRAST (BS55)=Indicator(1) 
  /PRINT=CI(95) 
  /CRITERIA=PIN(0.05) POUT(0.10) ITERATE(20) CUT(0.5).

*************MBS use and confident to discuss birth spacin with husband*************

LOGISTIC REGRESSION VARIABLES MBS 
  /METHOD=ENTER discushusanbdconfidently 
  /CONTRAST (discushusanbdconfidently)=Indicator(1) 
  /PRINT=CI(95) 
  /CRITERIA=PIN(0.05) POUT(0.10) ITERATE(20) CUT(0.5).

*************MBS use and husband supports me to use birth spacing*************

LOGISTIC REGRESSION VARIABLES MBS 
  /METHOD=ENTER BS58 
  /CONTRAST (BS58)=Indicator(1) 
  /PRINT=CI(95) 
  /CRITERIA=PIN(0.05) POUT(0.10) ITERATE(20) CUT(0.5).

***************MBS use and ever heard/seen messages of birth spacing***********

LOGISTIC REGRESSION VARIABLES MBS 
  /METHOD=ENTER BS64 
  /CONTRAST (BS64)=Indicator(1) 
  /PRINT=CI(95) 
  /CRITERIA=PIN(0.05) POUT(0.10) ITERATE(20) CUT(0.5).

****************MBS use and SES*****************

LOGISTIC REGRESSION VARIABLES MBS
  /METHOD=ENTER SES
  /CONTRAST (SES)=Indicator(1)
  /CRITERIA=PIN(.05) POUT(.10) ITERATE(20) CUT(.5).


******Somaliland TRaC monitoring and evaluation analysis - February 2016***********
***Author: Meg Kays

*******Combined SES************

FREQUENCIES VARIABLES=Q01 Q05_a Q05_b Q05_c Q05_d Q05_e Q05_f Q05_g Q05_h Q05_i Q05_j Q05_k 
    Q05_l Q05_n Q05_o Q05_p Q06_a Q06_b Q06_c Q06_e Q06_f
  /ORDER=ANALYSIS.

*Dummy variables for house

Recode Q01 (1=1) (else=0) into brickhouse.
Recode Q01 (3=1) (else=0) into grasshouse.
Recode Q01 (5=1) (else=0) into tinhouse.
Recode Q01 (2=1) (4=1) (6=1) (7=1) (else=0) into otherhouse.

*retaining all variables 95/5; excludes only Q05_o Q06_c and Q06_f


FACTOR
  /VARIABLES brickhouse grasshouse tinhouse otherhouse Q05_a Q05_b Q05_c Q05_d Q05_e Q05_f Q05_g Q05_h Q05_i Q05_j Q05_k Q05_l Q05_n Q05_p Q06_a Q06_b Q06_e 
 /MISSING LISTWISE 
 /ANALYSIS brickhouse grasshouse tinhouse otherhouse Q05_a Q05_b Q05_c Q05_d Q05_e Q05_f Q05_g Q05_h Q05_i Q05_j Q05_k Q05_l Q05_n Q05_p Q06_a Q06_b Q06_e 
  /PRINT INITIAL EXTRACTION
  /CRITERIA MINEIGEN(1) ITERATE(25)
  /EXTRACTION PC
  /ROTATION NOROTATE
  /SAVE REG(ALL)
  /METHOD=CORRELATION .

*Grouping respondents into quintiles

FREQUENCIES
VARIABLES=fac1_1
/NTILES= 5
/ORDER= ANALYSIS /FORMAT NOTABLE.


COMPUTE Fac1new = fac1_1 = RND(fac1_1*10000000)/10000000 .
EXECUTE .

RECODE fac1_1 (Lowest thru -1.1781560=1)  (-1.1781561 thru -.0096178=2) (-.0096179 thru .4857402=3) (.4857403 thru .8197183=4)  (.8197184 thru Highest=5)  INTO  SES .
VARIABLE LABELS SES 'Socioeconomic status'.

fre SES.


*****Variables to control for: socioeconomic status, age, region, education - SES Q04 REGION Q11

Fre SES Q04 REGION Q11.

CROSSTABS
  /TABLES=year BY SES
  /FORMAT=AVALUE TABLES
  /STATISTICS=CHISQ 
  /CELLS=COUNT ROW 
  /COUNT ROUND CELL.

***Note: round 2 is significantly richer than round 1.

T-TEST GROUPS=year(0 1)
  /MISSING=ANALYSIS
  /VARIABLES=Q04
  /CRITERIA=CI(.95).

*No significant difference in age.

CROSSTABS
  /TABLES=year BY REGION
  /FORMAT=AVALUE TABLES
  /STATISTICS=CHISQ 
  /CELLS=COUNT ROW 
  /COUNT ROUND CELL.

*Regions significantly different.

CROSSTABS
  /TABLES=year BY Q11
  /FORMAT=AVALUE TABLES
  /STATISTICS=CHISQ 
  /CELLS=COUNT ROW 
  /COUNT ROUND CELL.

*Educ significantly different.



***************Monitoring analysis.

*******Birth spacing

*Ever used BS

Fre BS02.

Recode BS02 (97=sysmis) (99=sysmis).

UNIANOVA
BS02 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Current use any BS.

Fre BS05.

Recode BS05 (97=sysmis) (99=sysmis).

UNIANOVA
BS05 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Current use MBS.

Fre C31.
Fre BS06_1 BS06_2 BS06_3 BS06_4 BS06_5 BS06_6 BS06_7 BS06_8 BS06_9 BS06_10 BS06_11.

Recode C31 (1=1) (2=1) (4=1) (5=1) (6=1) (7=1) (else=0) into MBS.
Fre MBS. 

DO IF (BS06_1 = 1).
RECODE MBS (0=1).
END IF.
EXECUTE.

DO IF (BS06_2 = 1).
RECODE MBS (0=1).
END IF.
EXECUTE.

DO IF (BS06_3 = 1).
RECODE MBS (0=1).
END IF.
EXECUTE.

DO IF (BS06_4 = 1).
RECODE MBS (0=1).
END IF.
EXECUTE.

DO IF (BS06_5 = 1).
RECODE MBS (0=1).
END IF.
EXECUTE.

DO IF (BS06_6 = 1).
RECODE MBS (0=1).
END IF.
EXECUTE.

DO IF (BS06_7 = 1).
RECODE MBS (0=1).
END IF.
EXECUTE.


Fre MBS.

UNIANOVA
MBS BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Use of injectables

Recode C31 (2=1) (else=0) into injectables.

Do if (BS06_2=1).
Recode injectables (0=1).
End if.
Execute. 

Fre injectables.

UNIANOVA
injectables BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Pills

Recode C31 (3=1) (else=0) into pills.

Do if (BS06_4=1).
Recode pills (0=1).
End if.
Execute. 

Fre pills.

UNIANOVA
pills BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.


*Knows source OC pills

Recode BS33 (98=sysmis).

UNIANOVA
BS33 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Easy to find OC

Recode BS34 (98=sysmis).

UNIANOVA
BS34 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Knows source inj

Recode BS35 (98=sysmis).

UNIANOVA
BS35 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Inj easy to find

Recode BS36 (98=sysmis).

UNIANOVA
BS36 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Knows source IUD

Recode BS37 (98=sysmis).

UNIANOVA
BS37 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Social norms = 51, 52, 53

Recode BS51 (3=1) (4=1) (else=0) into BS51R.
Recode BS52 (3=1) (4=1) (else=0) into BS52R.
Recode BS53 (3=1) (4=1) (else=0) into BS53R.

UNIANOVA
BS51R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
BS52R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
BS53R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Pills daily

Recode BS39 (97=sysmis) (98=sysmis).

UNIANOVA
BS39 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Inj 4x

Recode BS43 (4=1) (else=0) into BS43R.

UNIANOVA
BS43R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Discussed BS 

Recode BS54 (97=sysmis) (98=sysmis) (99=sysmis).
Recode BS55 (97=sysmis) (98=sysmis) (99=sysmis).

UNIANOVA
BS54 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
BS55 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Confident to discuss 

Recode BS57 (3=1) (4=1) (else=0) into BS57R.

UNIANOVA
BS57R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*BS acceptable

Recode BS49 (3=1) (4=1) (else=0) into BS49R.
Recode BS50 (3=1) (4=1) (else=0) into BS50R.

UNIANOVA
BS49R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
BS50R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*BS is safe

Recode BS47 (3=1) (4=1) (else=0) into BS47R.

UNIANOVA
BS47R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Pills, inj effective

Recode BS41 (3=1) (4=1) (else=0) into BS41R.
Recode BS45 (3=1) (4=1) (else=0) into BS45R.

UNIANOVA
BS41R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
BS45R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Pills, inj can cause infertility

Recode BS42 (3=1) (4=1) (else=0) into BS42R.
Recode BS46 (3=1) (4=1) (else=0) into BS46R.

UNIANOVA
BS42R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
BS46R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Traditional methods effective

Recode BS48 (3=1) (4=1) (else=0) into BS48R.

UNIANOVA
BS48R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Intends to use

Recode BS28 (97=SYSMIS) (98=SYSMIS) (99=SYSMIS).

UNIANOVA
BS28 BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Threat

Recode BS27 (1=1) (else=0) into BS27R.

USE ALL.
COMPUTE filter_$=(CBF03 = 0 & MBS = 0).
VARIABLE LABELS filter_$ 'CBF03 = 0 & MBS = 0 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

UNIANOVA
BS27R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

Filter off.

*********Diarrhea treatment

*Tx with ORS and zinc.

Recode QDTK06 (2=1) (else=0) into DTKuse.

Fre DTKuse.

UNIANOVA
DTKuse BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Benefits

Fre QDTK16_1 QDTK16_2 QDTK16_3 QDTK16_4.

Recode QDTK16_1 (1=1) (else=0) into QDTK16_1R.
Recode QDTK16_2 (1=1) (else=0) into QDTK16_2R.
Recode QDTK16_3 (1=1) (else=0) into QDTK16_3R.
Recode QDTK16_4 (1=1) (else=0) into QDTK16_4R.

UNIANOVA
QDTK16_1R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
QDTK16_2R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
QDTK16_3R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
QDTK16_4R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Increaes fluids

Fre QDTK09.

Recode QDTK09 (2=1) (else=0) into QDTK09R.

Fre QDTK09R.

UNIANOVA
QDTK09R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Knows to give ORS immediately

Recode QDTK10 (1=1) (else=0) into QDTK10R.

UNIANOVA
QDTK10R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Knows dosage zinc under 6 mos

Recode QDTK17 (2=1) (else=0) into QDTK17R.

UNIANOVA
QDTK17R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Knows days tx under 6 mos

Recode QDTK18 (2=1) (else=0) into QDTK18R.

UNIANOVA
QDTK18R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Dosage zinc over 6 mos

Recode QDTK19 (1=1) (else=0) into QDTK19R.

UNIANOVA
QDTK19R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Days zinc over 6 mos

Recode QDTK20 (2=1) (else=0) into QDTK20R.

UNIANOVA
QDTK20R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*DTK effective

Fre QDTK15.

Recode QDTK15 (1=1) (else=0) into QDTK15R.

UNIANOVA
QDTK15R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Heard of SD

Recode QDTK21 (1=1) (else=0) into QDTK21R.

UNIANOVA
QDTK21R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.


***********Diarrhea prevention

*Ever used Biyo

Recode WT05 (1=1) (else=0) into WT05R.

UNIANOVA
WT05R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Used biyo last 24 hours

Recode WT06 (1=1) (else=0) into WT06R.

UNIANOVA
WT06R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Availability

Fre WT37 WT38.

Recode WT37 (1=1) (else=0) into WT37R.

Recode WT38 (1=1) (else=0) into WT38R.

UNIANOVA
WT37R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
WT38R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Make water clean to drink

Recode WT19 (1=1) (else=0) into WT19R.

UNIANOVA
WT19R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Neighbors counsel

Recode WT23 (1=1) (else=0) into WT23R.

UNIANOVA
WT23R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Biyo effective prevention

Recode WT31 (1=1) (else=0) into WT31R.

UNIANOVA
WT31R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*cleaning water doesn't prevent diarrhea

Recode WT15 (1=1) (else=0) into WT15R.

UNIANOVA
WT15R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*instructions 33-36

Fre WT33 WT34 WT35 WT36.

Recode WT33 WT34 WT35 WT36 (1=1) (else=0) into WT33R WT34R WT35R WT36R.

UNIANOVA
WT33R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
WT34R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
WT35R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
WT36R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

Compute BiyoInstruct = WT33R + WT34R + WT35R + WT36R.

Recode BiyoInstruct (1=0) (2=0) (3=0) (4=1) (0=0).

Fre BiyoInstruct.

UNIANOVA
BiyoInstruct BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Worries child could die

Recode WT29 (1=1) (else=0) into WT29R.

UNIANOVA
WT29R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*seriously concerned quality

Recode WT25 (1=1) (else=0) into WT25R.

UNIANOVA
WT25R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*quality water causes problems

Recode WT26 (1=1) (else=0) into WT26R.

UNIANOVA
WT26R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*children at risk

Recode WT27 (1=1) (else=0) into WT27R.

UNIANOVA
WT27R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*water clear safe to drink

Recode WT12 (1=1) (else=0) into WT12R.

UNIANOVA
WT12R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*wash with soap

Recode WT08 (2=1) (else=0) into WT08R.

UNIANOVA
WT08R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*ever heard of biyo

Recode WT04 (1=1) (else=0) into WT04R.

UNIANOVA
WT04R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.


USE ALL.
COMPUTE filter_$=(year = 0).
VARIABLE LABELS filter_$ 'year = 0 (FILTER)'.
VALUE LABELS filter_$ 0 'Not Selected' 1 'Selected'.
FORMATS filter_$ (f1.0).
FILTER BY filter_$.
EXECUTE.

Fre WT04.

Filter off.


*******Nutrition

*pill or syrup

Recode MNP14 (1=1) (else=0) into MNP14R.

UNIANOVA
MNP14R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*knows poor nutrition causes problems

Recode MNP01 (1=1) (else=0) into MNP01R.

UNIANOVA
MNP01R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*knows anemia a problem

Recode MNP08 (1=1) (else=0) into MNP08R.


UNIANOVA
MNP08R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*knows complimentary feeding

Recode MNP05 (1=1) (else=0) into MNP05R.

UNIANOVA
MNP05R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*consequences

Recode MNP33_5 (1=1) (else=0) into MNP33_5R.

UNIANOVA
MNP33_5R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*anemia

Recode MNP06 (1=1) (else=0) into MNP06R.

UNIANOVA
MNP06R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.


******Pneumonia

CROSSTABS
  /TABLES=year BY PN07
  /FORMAT=AVALUE TABLES
  /CELLS=COUNT ROW 
  /COUNT ROUND CELL.

*Ever sought tx 

Recode PN07 (1=1) (else=0) into PN07R.

UNIANOVA
PN07R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Knows source.

Recode PN06 (1=1) (else=0) into PN06R.

UNIANOVA
PN06R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Knows signs

Recode PN02_1 PN02_2 PN02_3 PN02_4 PN02_5 (1=1) (else=0) into PN02_1R PN02_2R PN02_3R PN02_4R PN02_5R.

UNIANOVA
PN02_1R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

UNIANOVA
PN02_2R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.


UNIANOVA
PN02_3R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.


UNIANOVA
PN02_4R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.


UNIANOVA
PN02_5R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Seek tx at facility

Recode PN03 (2=1) (else=0) into PN03R.

UNIANOVA
PN03R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Seek tx immediately

Recode PN05 (1=1) (2=1) (else=0) into PN05R.

UNIANOVA
PN05R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.

*Ever heard pneumonia

Recode PN01 (1=1) (else=0) into PN01R.

UNIANOVA
PN01R BY year  WITH  SES Q04 REGION Q11
/METHOD = SSTYPE(3)
/INTERCEPT = INCLUDE
/EMMEANS =TABLES (year) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN)
/CRITERIA = ALPHA(.05)
/DESIGN = year SES Q04 REGION Q11.



*************Evaluation analysis.

***Creating BS expo variable.

Cro BS64 by year.

Filter by year.
Fre BS65_1 BS65_2 BS65_3 BS65_4 BS65_5 BS65_6 BS65_7 BS65_8 BS65_9.

Fre BS66_1 BS66_2 BS66_3 BS66_4.

Filter off.

Compute BSexpno = BS65_1 + BS65_2 + BS65_3 + BS65_4 + BS65_5 + BS65_6 + BS65_7 + BS65_8 + BS65_9.

Recode BSexpno (1=1) (2=2) (3=3) (4=4) (5=5) (6=6) (else=0).

Fre BSexpno.

Recode BSexpno (1=1) (2=2) (3=2) (4=2) (5=2) (6=2) (else=0) into BSexp2plus.

Fre BSexpno BSexp2plus.

Compute BSexpmsg = BS66_1 + BS66_2 + BS66_3 + BS66_4.

Recode BSexpmsg (1=1) (2=2) (3=3) (4=4) (else=0).

Fre BSexpmsg.

Recode BSexpmsg (1=1) (2=2) (3=2) (4=2) (else=0) into BSexpmsg2plus.

Fre BSexpmsg2plus.

***Exposure - baseline 0, no exposure FU 1, any exposure FU 2

Fre BS64.

Recode BS64 (1=2) (0=1) (97=sysmis) (99=sysmis) (else=0) into BSexp1.

Do if (year=0).
Recode BSexp1 (1=0) (2=0).
End if.

Fre BSexp1.

***Exposure - baseline 0, no exposure FU 1, one exposure FU 2, 2+ FU 3

Fre BSexp2plus.

Recode BSexp2plus (0=1) (1=2) (2=3) into BSexp2.

Do if (year=0).
Recode BSexp2 (1=0) (2=0) (3=0).
End if.

Fre BSexp2.

***Exposure to radio or tv.

Recode BSexp1 (0=0) (1=1) (2=1) into BSexp3.

Do if (BS65_1=1).
Recode BSexp3 (1=2).
End if.

Do if (BS65_2=1).
Recode BSexp3 (1=2).
End if.

Fre BSexp3.

***Exposure - baseline (0), no exp 1, one msg 2, 2+ msg 3

Recode BSexpmsg2plus (0=1) (1=2) (2=3) into BSexp4.

Do if (year=0).
Recode BSexp4 (1=0) (2=0) (3=0).
End if.

Fre BSexp4.



***Analysis - BS02, BS05, MBS, BS28

*Ever use
 
UNIANOVA
BS02 BY BSexp1  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp1) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp1 SES Q04 REGION Q11.

UNIANOVA
BS02 BY BSexp2  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp2) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp2 SES Q04 REGION Q11.

UNIANOVA
BS02 BY BSexp3  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp3) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp3 SES Q04 REGION Q11.

UNIANOVA
BS02 BY BSexp4  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp4) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp4 SES Q04 REGION Q11.

*None of these are significant/show a strong trend.


*Current use any method
 
UNIANOVA
BS05 BY BSexp1  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp1) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp1 SES Q04 REGION Q11.

UNIANOVA
BS05 BY BSexp2  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp2) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp2 SES Q04 REGION Q11.

UNIANOVA
BS05 BY BSexp3  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp3) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp3 SES Q04 REGION Q11.

UNIANOVA
BS05 BY BSexp4  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp4) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp4 SES Q04 REGION Q11.

*Best story is told by exp2 - significant.

*MBS
 
UNIANOVA
MBS BY BSexp1  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp1) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp1 SES Q04 REGION Q11.

UNIANOVA
MBS BY BSexp2  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp2) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp2 SES Q04 REGION Q11.

UNIANOVA
MBS BY BSexp3  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp3) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp3 SES Q04 REGION Q11.

UNIANOVA
MBS BY BSexp4  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp4) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp4 SES Q04 REGION Q11.

*Again, best story told by exp2.


*Intention
 
UNIANOVA
BS28 BY BSexp1  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp1) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp1 SES Q04 REGION Q11.

UNIANOVA
BS28 BY BSexp2  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp2) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp2 SES Q04 REGION Q11.

UNIANOVA
BS28 BY BSexp3  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp3) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp3 SES Q04 REGION Q11.

UNIANOVA
BS28 BY BSexp4  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (BSexp4) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= BSexp4 SES Q04 REGION Q11.

*Again, exp2 is the best most interesting story - will present only this for the evaluation table


***********Diarrhea treatment exposure

Fre QDTK22.

Fre QDTK23_1 QDTK23_2 QDTK23_3 QDTK23_4 QDTK23_5 QDTK23_6 QDTK23_7 QDTK23_8 QDTK23_9 QDTK23_10 QDTK23_11 QDTK23_12.

Compute DTKexpno = QDTK23_1 + QDTK23_2 + QDTK23_3 + QDTK23_4 + QDTK23_5 + QDTK23_6 + QDTK23_7 + QDTK23_8 + QDTK23_9 + QDTK23_10 + QDTK23_11 + QDTK23_12.

Recode DTKexpno (1164=0) (SYSMIS=0).

Recode DTKexpno (1=1) (2=2) (3=2) (4=2) (5=2) (6=2) (11=2) (else=0) into DTKexp2plus.

Fre DTKexpno DTKexp2plus.

***Exposure - baseline 0, no exposure FU 1, any exposure FU 2

Recode DTKexp2plus (0=1) (1=2) (2=2) into DTKexp1.

Fre DTKexp1.

Do if (year=0).
Recode DTKexp1 (1=0) (2=0).
End if.

Fre BSexp1.

***Exposure - baseline 0, no exposure FU 1, one exposure FU 2, 2+ FU 3

Recode DTKexp2plus (0=1) (1=2) (2=3) into DTKexp2.

Fre DTKexp2.

Do if (year=0).
Recode DTKexp2 (1=0) (2=0) (3=0).
End if.

Fre DTKexp2.

***Exposure to radio or tv - not meaningful as 100% of those exposed are exposed to radio or tv.

*******DTK use

UNIANOVA
DTKuse BY DTKexp1  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (DTKexp1) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= DTKexp1 SES Q04 REGION Q11.

UNIANOVA
DTKuse BY DTKexp2  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (DTKexp2) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= DTKexp2 SES Q04 REGION Q11.

*Exp2 tells the strongest story


********MNP one round only: do this in the 2015 dataset (must run SES calculation here first).

Fre MNP16 MNP17.

Fre MNP18_1 MNP18_2 MNP18_3 MNP18_4 MNP18_5 MNP18_6 MNP18_7 MNP18_8 MNP18_9 MNP18_10 MNP18_11 MNP18_12 MNP18_13.

Compute MNPexpno = MNP18_1 + MNP18_2 + MNP18_3 + MNP18_4 + MNP18_5 + MNP18_6 + MNP18_7 + MNP18_8 + MNP18_9 + MNP18_10 + MNP18_11 + MNP18_12 + MNP18_13.

Fre MNPexpno.

Recode MNPexpno (SYSMIS=0). 

Recode MNPexpno (0=0) (1=1) (2=2) (3=2) (4=2) (12=2) into MNPexp2plus.

Fre MNPexpno MNPexp2plus.

*Gave MNP

Recode MNP21 (1=1) (else=0) into MNP21R.

UNIANOVA
MNP21R BY MNPexp2plus  WITH SES Q04 REGION Q11
/METHOD=SSTYPE(3)
/INTERCEPT=INCLUDE
/EMMEANS=TABLES (MNPexp2plus) WITH (SES=MEAN  Q04=MEAN  REGION=MEAN  Q11=MEAN) compare ADJ(LSD)  
/PRINT=DESCRIPTIVE
/CRITERIA=ALPHA(.05)
/DESIGN= MNPexp2plus SES Q04 REGION Q11.








     
